Riveting assembly

ABSTRACT

A riveting assembly includes a base plate and a stud. The base plate has a first surface, a second surface, and a riveting hole. The riveting hole is communicated with the first surface and the second surface and has at least one notch. The stud includes a main body and a riveting structure. The main body abuts against the second surface and covers the riveting hole. The riveting structure is connected to the main body. The riveting structure protrudes out from the riveting hole to abut against the first surface and to be engaged with the notch. A portion of the base plate is clamped between the main body and the riveting structure.

RELATED APPLICATIONS

This application claims priority to Taiwan Application Serial Number101217867, filed Sep. 14, 2012, which is herein incorporated byreference.

BACKGROUND

1. Technical Field

The present disclosure relates to a riveting assembly, and moreparticularly, to a riveting assembly for combining a stud with a baseplate.

2. Description of Related Art

In a conventional electronic product (e.g., a host computer, a DVDplayer, a VCD player, etc.) with a chassis structure, a fastening methodis generally needed for fixing chassis plates to each other or to acircuit board. The fastening method forms threaded holes on the platesfirstly, and then uses screws into the threaded holes for fastening.However, thickness of the chassis plates is generally small, so that thescrews may easily escape from the threaded holes due to small contactareas between the screws and the chassis plates which result in weakconnection strength. Therefore, a riveting method that has theadvantages of strong connection strength and short processing time hasgradually replaced the fastening method of using screws at certainoccasions.

Currently, a riveting piece can be riveted to a workpiece by usingvarious kinds of machines (such as a punching machine, a pressingmachine, or a bending machine) collaborating with molds or gaugesdesigned for the riveting piece and the workpiece. Whether the rivetingpiece can be well riveted to the workpiece is absolutely related to thematerial of the workpiece and the riveting position of the rivetingpiece relative to the workpiece. Accordingly, specifications of variousriveting pieces all define a requirement of minimum distance between acenterline of riveting piece and an edge material at a rivetingposition. If a riveting piece does not meet the requirement, it can beassured that the riveting piece can't be well riveted. Furthermore, ifthe design fails to meet the requirement of minimum distance (between acenterline of riveting piece and an edge material at a rivetingposition), a secondary processing (such as traditional argon welding,laser welding, powerful adhesive, or other manners) has to be performedto enhance the fastening strength of the riveting piece.

However, a deformed portion of the riveting piece for being riveted tothe workpiece may easily fall off from the workpiece while being rotatedrelative to the workpiece or deformed again due to an external impact.In other words, the conventional riveting manner cannot provide betteranti-torque and anti-tensile capabilities.

SUMMARY

In order to solve the problems of the prior art, the disclosure providesan improved riveting assembly, in which a plurality of notches areformed at a riveting hole of a base plate of the riveting assembly.After a riveting piece passes through the riveting hole to be riveted tothe base plate, portions of the riveting piece corresponding to thenotches are stamped, thereby engaging the portions of the riveting piecewith the notches. Therefore, when being impacted, the riveting piecewill not be easily rotated relative to the base plate. In other words,the riveting assembly of the disclosure can provide better anti-torquecapability between the riveting piece and the base plate. Furthermore, asecondary processing (i.e. a stamping process) can be performed onto theriveting piece after the riveting piece is riveted to the base plate,thereby further improving anti-tensile capability between the rivetingpiece and the base plate. In the disclosure, the riveting assemblyprimarily adopts a stud as the riveting piece.

According to an embodiment of the disclosure, a riveting assemblyincludes a base plate and a stud. The base plate has a first surface, asecond surface, and a riveting hole. The riveting hole is communicatedwith the first surface and the second surface and has at least onenotch. The stud includes a main body and a riveting structure. The mainbody abuts against the second surface and covers the riveting hole. Theriveting structure is connected to the main body. The riveting structureprotrudes out from the riveting hole to abut against the first surfaceand to be engaged with the notch. A portion of the base plate is clampedbetween the main body and the riveting structure.

In an embodiment of the disclosure, the riveting structure includes afirst engaging portion, a riveting portion, and at least one secondengaging portion. The first engaging portion is connected to the mainbody to be engaged with the riveting hole. The riveting portion isconnected to the first engaging portion. The riveting portion protrudesout from the riveting hole and is bent relative to the first engagingportion to abut against the first surface. The portion of the base plateis clamped between the main body and the riveting portion. The secondengaging portion is disposed on the riveting portion to be engaged withthe notch.

In an embodiment of the disclosure, the second engaging portion is astamped structure.

In an embodiment of the disclosure, the base plate includes a recessedregion. The recessed region is recessed from the first surface towardthe second surface, so as to form an accommodating space. The rivetinghole is located in the recessed region. The accommodating spaceaccommodates the riveting portion.

In an embodiment of the disclosure, the recessed region has an opening.The riveting portion does not protrude out from the opening.

In an embodiment of the disclosure, the second engaging portion islocated at a junction of the first engaging portion and the rivetingportion.

In an embodiment of the disclosure, the stud has a threaded hole and acountersunk hole. The threaded hole passes through the main body. Thecountersunk hole passes through the riveting structure. The threadedhole and the countersunk hole are communicated with each other.

In an embodiment of the disclosure, a diameter of the threaded hole issmaller than a diameter of the countersunk hole.

In an embodiment of the disclosure, the base plate includes a pluralityof the notches. The notches are formed at an inner wall of the rivetinghole equidistantly.

In an embodiment of the disclosure, the riveting hole is substantiallystar-shaped.

In an embodiment of the disclosure, the riveting structure includes atleast one protrusion corresponding to the notch.

It is to be understood that both the foregoing general description andthe following detailed description are by examples, and are intended toprovide further explanation of the disclosure as claimed.

BRIEF DESCRIPTION OF THE DRAWINGS

The disclosure can be more fully understood by reading the followingdetailed description of the embodiment, with reference made to theaccompanying drawings as follows:

FIG. 1 is a top view of a base plate of a riveting assembly according toan embodiment of the disclosure;

FIG. 2A is a cross-sectional view of the riveting assembly according toan embodiment of the disclosure, in which a stud has not been engagedwith the base plate;

FIG. 2B is another cross-sectional view of the riveting assembly in FIG.2A, in which the stud has been engaged with the base plate;

FIG. 2C is another cross-sectional view of the riveting assembly in FIG.2A, in which the stud has been riveted to the base plate;

FIG. 3 is a top view of the riveting assembly in FIG. 2C, in which ariveting hole is indicated by a dotted line;

FIG. 4 is a cross-sectional view viewed along line 4-4′ of FIG. 3;

FIG. 5 is a top view of a base plate of a riveting assembly according toanother embodiment of the disclosure;

FIG. 6 is a cross-sectional view of the riveting assembly according toanother embodiment of the disclosure, in which a stud has been rivetedto the base plate; and

FIG. 7 is a cross-sectional view of another embodiment of the stud inFIG. 2A.

DETAILED DESCRIPTION

Reference will now be made in detail to the present embodiments of thedisclosure, examples of which are illustrated in the accompanyingdrawings. Wherever possible, the same reference numbers are used in thedrawings and the description to refer to the same or like parts.

FIG. 1 is a top view of a base plate 10 of a riveting assembly 1according to an embodiment of the disclosure. FIG. 2A is across-sectional view of the riveting assembly 1 according to anembodiment of the disclosure, in which a stud 12 has not been engagedwith the base plate 10.

As shown in FIG. 1 and FIG. 2A, the riveting assembly 1 of thedisclosure firmly fixes the stud 12 to the base plate 10, but thedisclosure is not limited in this regard. For example, concepts of theriveting assembly 1 can be applied to an electronic product having achassis structure (such as a host computer, a DVD player, a VCD player,etc.) for firmly connecting two plates of the chassis structure orconnecting a circuit board to one of the plates. In other words, ifthere exists a requirement of firmly connecting and fixing twoindependent objects, the concepts of the riveting assembly 1 of thedisclosure can be used.

As shown in FIG. 1 and FIG. 2A, the riveting assembly 1 includes thebase plate 10 and the stud 12. The base plate 10 of the rivetingassembly 1 has a first surface 100, a second surface 102, and a rivetinghole 104. The riveting hole 104 of the base plate 10 is communicatedwith the first surface 100 and the second surface 102 and has aplurality of notches 104 a. In the embodiment of the disclosure, theriveting hole 104 of the base plate 10 has four notches 104 a, and thenotches 104 a are formed at the inner wall of the riveting hole 104equidistantly, but the disclosure is not limited in this regard. Thenumber of the notches 104 a of the riveting hole 104 and locations ofthe notches 104 a relative to the riveting hole 104 can be adjusted asneeded. Furthermore, in the embodiment of the disclosure, the rivetinghole 104 of the base plate 10 is substantially star-shaped, but thedisclosure is not limited in this regard. The shapes of the notches 104a of the riveting hole 104 can also be adjusted as needed.

As shown in FIG. 2A, the stud 12 of the riveting assembly 1 includes amain body 120 and a riveting structure 121. The stud 12 of the rivetingassembly 1 has a threaded hole 128 and a countersunk hole 130. Thethreaded hole 128 of the stud 12 passes through the main body 120. Thecountersunk hole 130 of the stud 12 passes through the rivetingstructure 121. The threaded hole 128 and the countersunk hole 130 arecommunicated with each other, and the diameter of the threaded hole 128is smaller than the diameter of the countersunk hole 130. Therefore,when a screw having a threaded portion and a head portion (not shown) isfastened to the stud 12 of the riveting assembly 1, the threaded portionof the screw can enter the countersunk hole 130 and then be fastenedinto the threaded hole 128. After the screw is entirely fastened to thestud 12, the countersunk hole 130 of the stud 12 accommodates the headportion of the screw.

FIG. 2B is another cross-sectional view of the riveting assembly 1 inFIG. 2A, in which the stud 12 has been engaged with the base plate 10.

As shown in FIG. 2A and FIG. 2B, the outer diameter of the rivetingstructure 121 of the stud 12 is equal to or smaller than the innerdiameter of the riveting hole 104. Therefore, the riveting structure 121of the stud 12 can be aligned with the riveting hole 104 of the baseplate 10 firstly, and then the stud 12 can be moved toward the baseplate 10 (as shown in FIG. 2A), so as to make the riveting structure 121pass through the riveting hole 104 from the second surface 102 of thebase plate 10 and be engaged with the riveting hole 104. For convenientassembling, a small clearance is allowed between the riveting structure121 of the stud 12 and the riveting hole 104 of the base plate 10.Furthermore, the outer diameter of the main body 120 of the stud 12 isgreater than the outer diameter of the riveting structure 121.Therefore, when the riveting structure 121 of the stud 12 passes throughthe riveting hole 104 of the base plate 10 till abutting against thesecond surface 102 of the base plate 10, the main body 120 covers theriveting hole 104 (as shown in FIG. 2B). Meanwhile, the rivetingstructure 121 of the stud 12 protrudes out of the riveting hole 104 ofthe base plate 10 from the first surface 100.

FIG. 2C is another cross-sectional view of the riveting assembly 1 inFIG. 2A, in which the stud 12 has been riveted to the base plate 10.

As shown in FIG. 2C, in order to rivet the base plate 10 and the stud 12that have been engaged with each other, the riveting structure 121 thatprotrudes out of the riveting hole 104 of the base plate 10 from thefirst surface 100 can be stamped so as to make the portion of theriveting structure 121 that protrudes out of the riveting hole 104 ofthe base plate 10 be deformed to abut against the first surface 100 ofthe base plate 10. Meanwhile, the outer diameter of the portion of theriveting structure 121 that is deformed is greater than the innerdiameter of the riveting hole 104, such that the riveting structure 121cannot return to the second surface 102 of the base plate 10 via theriveting hole 104. Therefore, a portion of the base plate 10 can befirmly clamped between the main body 120 and the riveting structure 121of the stud 12.

Furthermore, the riveting structure 121 of the stud 12 includes a firstengaging portion 122 and a riveting portion 124. The first engagingportion 122 of the riveting structure 121 is connected to the main body120, so as to be engaged with the riveting hole 104 of the base plate10. In other words, when the riveting structure 121 of the stud 12passes through the riveting hole 104 of the base plate 10 till abuttingagainst the second surface 102 of the base plate 10, the first engagingportion 122 of the riveting structure 121 is engaged with the rivetinghole 104 of the base plate 10. The riveting portion 124 of the rivetingstructure 121 is connected to the first engaging portion 122. When theriveting structure 121 of the stud 12 passes through the riveting hole104 of the base plate 10 till abutting against the second surface 102 ofthe base plate 10, the riveting portion 124 of the riveting structure121 protrudes out of the riveting hole 104 of the base plate 10 and isbent relative to the first engaging portion 122 to abut against thefirst surface 100. Therefore, the portion of the base plate 10 can befirmly clamped between the main body 120 of the stud 12 and the rivetingportion 124 of the riveting structure 121.

FIG. 3 is a top view of the riveting assembly 1 in FIG. 2C, in which theriveting hole 104 is indicated by a dotted line. FIG. 4 is across-sectional view viewed along line 4-4′ of FIG. 3.

As shown in FIG. 3 and FIG. 4, the riveting structure 121 of the stud 12further includes a plurality of second engaging portions 126. The secondengaging portions 126 are located on the riveting portion 124 (i.e., theportion of the riveting structure 121 that protrudes out of the rivetinghole 104 of the base plate 10 and is deformed to abut against the firstsurface 100), so as to be engaged with the notches 104 a of the rivetinghole 104. In order to form the second engaging portions 126 on theriveting portion 124 of the riveting structure 121, the stud 12 can beperformed with a secondary processing (such as a stamping process) afterthe stud 12 and the base plate 10 are riveted to each other. In theembodiment of the disclosure, the second engaging portions 126 of theriveting structure 121 are stamped structures located on the rivetingportion 124. By performing the secondary processing onto the rivetingportion 124 of the riveting structure 121, stress concentrationsgenerated on the riveting portion 124 can further improve theanti-tensile capability of the stud 12 of the riveting assembly 1relative to base plate 10.

As shown in FIG. 3, the second engaging portions 126 of the rivetingstructure 121 are formed from the inner edge of the riveting portion 124(i.e., the junction of the first engaging portion 122 and the rivetingportion 124) toward the outer edge of the riveting portion 124, but thedisclosure is not limited in this regard. In another embodiment of thedisclosure, the second engaging portions 126 of the riveting structure121 are located at the junction of the first engaging portion 122 andthe riveting portion 124, and each of the second engaging portions 126is aligned with and engaged with a corresponding one of the notches 104a at the riveting hole 104.

FIG. 5 is a top view of a base plate 30 of a riveting assembly 3according to another embodiment of the disclosure. FIG. 6 is across-sectional view of the riveting assembly 3 according to anotherembodiment of the disclosure, in which a stud 12 has been riveted to thebase plate 30.

As shown in FIG. 5 and FIG. 6, the riveting structure 3 includes a baseplate 30 and a stud 12. The structure and functions of the stud 12 ofthe riveting assembly 3 can be referred to the related descriptions ofthe above embodiment shown in FIG. 2A to FIG. 2C, and thus anexplanation in this regard will not be repeated. The base plate 30 ofthe riveting assembly 3 has a first surface 300, a second surface 302,and a riveting hole 304. The riveting hole 304 of the base plate 30 iscommunicated with the first surface 300 and the second surface 302 andhas a plurality of notches 304 a. The structures and functions of thefirst surface 300, the second surface 302, the riveting hole 304, andthe notches 304 a and relationships among them can be referred to theabove embodiment shown in FIG. 1, FIG. 3, and FIG. 4, and thus anexplanation in this regard will not be repeated.

It should be pointed out that in the embodiment of the disclosure, thebase plate 30 of the riveting assembly 3 further includes a recessedregion 306. The recessed region 306 of the base plate 30 is recessedfrom the first surface 300 toward the second surface 302, so as to forman accommodating space 306 a. The riveting hole 304 of the base plate 30is located in the recessed region 306. The accommodating space 306 a ofthe base plate 30 accommodates the riveting portion 124 of the rivetingstructure 121. Furthermore, the recessed region 306 of the base plate 30has an opening 306 b. The riveting portion 124 of the riveting structure121 does not protrude out from the opening 306 b. In other words, afterthe stud 12 is riveted to the base plate 30, and the riveting portion124 of the riveting structure 121 is accommodated in the accommodatingspace 306 a of the recessed region 306 without protruding out of theopening 306 b. Therefore, the riveting portion 124 of the rivetingstructure 121 is not easy to be impacted by external force, so as toprevent the riveting portion 124 from being deformed again back to thesecond surface 302 of the base plate 30 via the riveting hole 304 andthus being separated from the base plate 30.

In practice, the recessed region 306 of the base plate 30 can be formedby stamping in advance or be simultaneously formed when the rivetingportion 124 of the riveting structure 121 is riveted to the base plate30 (as shown in FIG. 2C) by stamping.

FIG. 7 is a cross-sectional view of another embodiment of the stud 12 inFIG. 2A.

As shown in FIG. 7, a stud 52 also includes a main body 520 and ariveting structure 52, and the stud 52 also has a threaded hole 528 anda countersunk hole 530, in which reference can be made to the relateddescriptions of the stud 12 shown in FIG. 2A, and thus an explanation inthis regard will not be repeated. It should be pointed out that in theembodiment of the disclosure, the riveting structure 521 of the stud 52includes a plurality of protrusions 526 located at the outer wall of theriveting structure 521, and each of the protrusions 526 is correspondingto one of the notches 104 a of the riveting hole 104.

Therefore, after the riveting structure 521 of the stud 52 passesthrough the riveting hole 104 from the second surface 102 of the baseplate 10 and is engaged with the riveting hole 104, the protrusions 526of the riveting structure 521 are engaged with the notches 104 a of theriveting hole 104.

According to the foregoing recitations of the embodiments of thedisclosure, it can be seen that the riveting assembly forms a pluralityof notches at a riveting hole of a base plate. After a riveting piecepasses through the riveting hole to be riveted to the base plate,portions of the riveting piece corresponding to the notches are stamped,so as to make the portions be engaged with the notches. Therefore, theriveting piece is not easily to be rotated relative to the base plate byimpact. In other words, the riveting assembly of the disclosure canprovide better anti-torque capability between the riveting piece and thebase plate. Furthermore, the secondary processing (i.e. the stampingprocess) performed onto the riveting piece after the riveting piece isriveted to the base plate can further improve the anti-tensilecapability between the riveting piece and the base plate.

It will be apparent to those skilled in the art that variousmodifications and variations can be made to the structure of the presentdisclosure without departing from the scope or spirit of the disclosure.In view of the foregoing, it is intended that the present disclosurecover modifications and variations of this disclosure provided they fallwithin the scope of the following claims.

What is claimed is:
 1. A riveting assembly, comprising: a base platehaving a first surface, a second surface, and a riveting hole, theriveting hole being communicated with the first surface and the secondsurface and having at least one notch; and a stud, comprising: a mainbody abutting against the second surface and covering the riveting hole;and a riveting structure connected to the main body, the rivetingstructure protruding out from the riveting hole to abut against thefirst surface and to be engaged with the notch, wherein a portion of thebase plate is clamped between the main body and the riveting structure.2. The riveting assembly of claim 1, wherein the riveting structurecomprises: a first engaging portion connected to the main body to beengaged with the riveting hole; a riveting portion which is connected tothe first engaging portion, protrudes out from the riveting hole, and isbent relative to the first engaging portion to abut against the firstsurface, wherein the portion of the base plate is clamped between themain body and the riveting portion; and at least one second engagingportion disposed on the riveting portion to be engaged with the notch.3. The riveting assembly of claim 2, wherein the second engaging portionis a stamped structure.
 4. The riveting assembly of claim 2, wherein thebase plate comprises a recessed region recessed from the first surfacetoward the second surface, so as to form an accommodating space, theriveting hole is located in the recessed region, and the accommodatingspace accommodates the riveting portion.
 5. The riveting assembly ofclaim 4, wherein the recessed region has an opening, and the rivetingportion does not protrude out of the opening.
 6. The riveting assemblyof claim 2, wherein the second engaging portion is located at a junctionof the first engaging portion and the riveting portion.
 7. The rivetingassembly of claim 1, wherein the stud has a threaded hole and acountersunk hole, the threaded hole passes through the main body, thecountersunk hole passes through the riveting structure, and the threadedhole and the countersunk hole are communicated with each other.
 8. Theriveting assembly of claim 7, wherein a diameter of the threaded hole issmaller than a diameter of the countersunk hole.
 9. The rivetingassembly of claim 1, wherein the base plate comprises a plurality of thenotches formed at an inner wall of the riveting hole equidistantly. 10.The riveting assembly of claim 1, wherein the riveting hole issubstantially star-shaped.
 11. The riveting assembly of claim 1, whereinthe riveting structure comprises at least one protrusion correspondingto the notch.